CN217724352U - Microwave probe temperature detection structure - Google Patents

Abstract

The utility model discloses a microwave probe temperature detects structure, including the microwave probe, the preceding terminal surface of microwave probe is provided with the arc concave surface, the microwave probe on install rectangle protecting frame, rectangle protecting frame about both ends symmetry be provided with solid fixed ring, rectangle protecting frame install the fixed axle through solid fixed ring, the other end of fixed axle install the spacing ring, spacing ring and solid fixed ring between articulated have with the axle sleeve of fixed axle looks adaptation, the axle sleeve install fixed pipe through the connector, the top of fixed pipe be equipped with tubulose infrared distance sensor and be located the tubulose infrared thermometer of infrared distance sensor top. According to the invention, the distance between the microwave probe and the treatment part is controllable by arranging the infrared distance sensor, the microwave probe has a temperature monitoring function by combining the upper infrared thermometer, and meanwhile, the position of the infrared thermometer is adjustable, so that the accuracy of temperature detection is obviously improved.

Description

Microwave probe temperature detection structure

Technical Field

The invention relates to the technical field of microwave probes, in particular to a temperature detection structure of a microwave probe.

Background

The microwave therapy is a method for realizing disease treatment through a thermal effect and a biological effect, and utilizes the magnetic resistance existing between polar molecules to generate a damping effect on oscillation, and the microwave energy is consumed to generate heat, wherein after the microwave irradiates a pathological change part, the pathological change tissue absorbs the microwave energy to generate heat, the temperature of the pathological change tissue is increased faster than that of other hot compress, the temperature distribution is uniform, and the heat generated by the pathological change part cannot be directly reflected during the treatment.

The common microwave therapy head mainly aims at detecting the temperature generated in the therapy head, the technical characteristics of the detection of the body surface temperature are lacked, the temperature monitoring can not be carried out in real time when the microwave probe is used for therapy, the distance between the microwave probe and a pathological change position is uncontrollable due to the deviation of the body limb part when the human body is used for long-time therapy, the therapeutic effect and the accuracy of temperature detection are seriously influenced, and the treatment period of a patient is prolonged.

According to the above, a temperature detection structure of a microwave probe is provided.

Disclosure of Invention

The invention aims to solve the problems that the microwave probe in the prior art cannot monitor and observe the body surface temperature of a human body during treatment and the distance between a lesion part of the human body and the microwave probe is uncontrollable, and provides a temperature detection structure of the microwave probe.

In order to achieve the purpose, the invention adopts the following technical scheme: a microwave probe temperature detection structure comprises a microwave probe, wherein an arc-shaped concave surface is arranged on the front end surface of the microwave probe, and a rectangular protective frame is arranged on the microwave probe;

the left end and the right end of the rectangular protective frame are symmetrically provided with fixing rings;

the rectangular protective frame is provided with a fixed shaft through a fixed ring;

the other end of the fixed shaft is provided with a limiting ring;

a shaft sleeve matched with the fixed shaft is hinged between the limiting ring and the fixed ring;

the shaft sleeve is provided with a fixed pipe through a connector;

and a tubular infrared distance sensor and a tubular infrared thermometer positioned above the infrared distance sensor are arranged above the fixed tube.

In an optional embodiment, the fixed pipe is provided with a guide rail parallel to the central axis of the fixed pipe through the base, and the fixed pipe and the base are of an integrated structure;

and the guide rail is provided with a sliding block which is matched with the guide rail.

In an optional embodiment, the slider and the infrared distance sensor are fixedly arranged with each other, and the infrared distance sensor is located on an end surface of the slider.

In an optional implementation mode, a shaft seat is arranged above the sliding block, and the central axis of the shaft seat is coplanar with and perpendicular to the central axis of the sliding block.

In an optional implementation mode, the shaft seat is hinged with a hinged shaft of the infrared thermometer, and an electronic display screen is installed on the side face of the end shaft of the infrared thermometer.

In an optional embodiment, the infrared thermometer is positioned at the outer side of the rectangular protective frame;

handles are symmetrically arranged at the upper end and the lower end of the rectangular protective frame.

In an optional embodiment, a protection plate is slidably mounted at the rear end of the rectangular protection frame;

the protection plate is provided with a second through hole positioned in the center and a plurality of first through holes distributed on the upper side and the lower side of the second through hole, and the first through holes are uniformly arranged in a step manner;

one surface of the rectangular protective frame corresponding to the microwave probe is fixedly connected with a fixed plate.

In an optional embodiment, the fixing plate and the mounting plate are correspondingly arranged, and the mounting plate is mounted on the rear end face of the microwave probe.

In an optional embodiment, an adapter is installed on one surface of the installation plate, which is opposite to the microwave probe;

the adapter is matched with the second through hole in size;

the microwave probe and the rectangular protective frame are mutually attached and installed.

The invention has the following beneficial effects:

1. according to the microwave probe, the rectangular protective frame is arranged on the microwave probe to enable the microwave probe to have the dustproof and electric shock prevention functions, the fixing shaft is arranged on the fixing ring on the rectangular protective frame, the shaft sleeve and the fixing shaft can rotate to adjust the position of the fixing tube, and the positions of the infrared distance sensor and the infrared thermometer can be further adjusted by combining the guide rail and the sliding block on the fixing tube, so that the microwave probe has the functions of body surface temperature detection and distance detection, and meanwhile, the detection accuracy is improved.

2. According to the invention, the rear end of the rectangular protective frame and the protective plate are slidably mounted, the protective plate is changed into a detachable structure, the rectangular protective frame has a dustproof function, and the fixed pipes positioned on two sides of the rectangular protective frame can be provided with auxiliary parts.

3. According to the invention, cables with different diameters can be installed at the rear end of the microwave probe in combination with the adapter, and the rectangular protection frame on the microwave probe is fixed in a detachable installation manner, so that the rectangular protection frame is convenient to maintain.

Drawings

Fig. 1 is a schematic structural diagram of a microwave probe temperature detection structure according to the present invention;

FIG. 2 is an assembly diagram of a protection plate of the temperature detection structure of the microwave probe according to the present invention;

FIG. 3 is a schematic structural diagram of a microwave probe temperature detection structure according to the present invention;

FIG. 4 is a front view of a microwave probe temperature detection structure according to the present invention;

FIG. 5 is a rear view of a microwave probe temperature detection structure according to the present invention;

FIG. 6 is a top view of a microwave probe temperature detection structure according to the present invention;

FIG. 7 is a right side view of a microwave probe temperature detection structure according to the present invention;

FIG. 8 is an enlarged view of FIG. 1 at A;

fig. 9 is an enlarged view of fig. 2 at B.

Illustration of the drawings:

1. a rectangular protective frame; 11. a handle; 12. a fixing ring; 2. A microwave probe; 21. an arc-shaped concave surface; 22. mounting a plate; 23. an adapter; 3. a fixed shaft; 31. a limiting ring; 4. a fixed tube; 41. a shaft sleeve; 42. a connector; 43. a guide rail; 431. a base; 5. an infrared distance sensor; 51. a slider; 511. a shaft seat; 6. an infrared thermometer; 61. an electronic display screen; 7. a protection plate; 71. blocking edges; 72. a fixing plate; 73. a first through hole; 74. a second via.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and furthermore, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-9, one embodiment of the present invention provides: a microwave probe temperature detection structure comprises a microwave probe 2, wherein an arc concave surface 21 is arranged on the front end surface of the microwave probe 2;

the rear end face of the microwave probe 2 is provided with an installation plate 22, and the end face of the installation plate 22 is of a rectangular structure and is positioned at the center of the microwave probe 2;

one side of the mounting plate 22, which is opposite to the microwave probe 2, is provided with an adapter 23, one end of the adapter 23 is arranged on the mounting plate 22 through an external thread, and the other end of the adapter 23 is provided with an internal thread;

the microwave probe 2 and the rectangular protective frame 1 are fixedly arranged with each other, and the microwave probe 2 is positioned inside the rectangular protective frame 1 and is attached to the inner wall of the rectangular protective frame 1;

the left end and the right end of the rectangular protective frame 1 are symmetrically provided with fixing rings 12, the fixing rings 12 and the rectangular protective frame 1 are of an integrated structure, and the rectangular protective frame 1 has an electric shock prevention function and can be disassembled and assembled;

the rectangular protective frame 1 is provided with two fixed shafts 3 through fixed rings 12 on two sides, and the end parts of the two fixed shafts 3 are provided with external threads;

the fixed shaft 3 is provided with a limiting ring 31 through external threads, and the size of the limiting ring 31 is the same as that of the fixing ring 12;

a shaft sleeve 41 matched with the fixed shaft 3 is arranged in the middle of the limiting ring 31 and the fixing ring 12, and the shaft sleeve 41 is rotationally arranged around the fixed shaft 3;

the shaft sleeve 41 is provided with a connector 42, and the connector 42 and the shaft sleeve 41 are of an integrated structure;

the central axis of the connector 42 and the central axis of the shaft sleeve 41 are coplanar and perpendicular to each other;

the shaft sleeve 41 is provided with a fixed tube 4 through a connector 42, the outer surface of the fixed tube 4 is provided with scale marks, the end part of the fixed tube 4 is used for installing an auxiliary tool, and the auxiliary tool can be a B-ultrasonic image detector, a lighting lamp or a measuring scale;

a guide rail 43 with the central axis parallel to each other is arranged above the fixed pipe 4;

the end of the guide rail 43 is arranged on the base 431, and the base 431 and the fixed pipe are of a 4-bit integrated structure;

the guide rail 43 is provided with a matched sliding block 51;

the end face of the sliding block 51 is provided with a tubular infrared distance sensor 5 with a matched size, and the side face of the shaft is provided with a shaft seat 511;

the infrared distance sensor 5 is positioned above the fixed tube 4;

the central axis of the shaft seat 511 is coplanar with and perpendicular to the central axis of the sliding block 51, and when the distance between the human body and the arc concave surface 21 of the microwave probe 2 is more than 10cm or less than 1cm, the infrared distance sensor 5 can give out alarm sound;

a hinged shaft of the infrared thermometer 6 is hinged on the shaft seat 511;

the infrared thermometer 6 is of a tubular structure, and an electronic display screen 61 is arranged on the side surface of an end shaft of the infrared thermometer 6;

the infrared thermometer 6 is positioned above the infrared distance sensor 5, and the infrared thermometer 6 and the infrared distance sensor 5 are both positioned on the outer side of the rectangular protective frame 1;

handles 11 are mounted at the upper end and the lower end of the rectangular protective frame 1, and the handles 11 are of plate-shaped structures or U-shaped tubular structures;

the upper end and the lower end of the rectangular protective frame 1 are arranged in a sliding manner with the protective plate 7, the upper end and the lower end of the protective plate 7 are both provided with arc-shaped rails, and the left end and the right end of the protective plate are provided with plugging edges 71;

the protection plate 7 is positioned at the rear end of the rectangular protection frame 1, and the protection plate 7 has the functions of convenient assembly and disassembly, dust prevention and electric shock prevention;

one surface of the rectangular protective frame 1 corresponding to the microwave probe 2 is fixedly connected with a fixing plate 72, and the fixing plate 72 and the mounting plate 22 are correspondingly arranged;

the guard plate 7 on be provided with the second through-hole 74 that is located central point and distribute in a plurality of first through-holes 73 of second through-hole 74 upper and lower both sides, a plurality of first through-holes 73 are cascaded even setting, the size looks adaptation of second through-hole 74 and adapter 23.

Firstly, a user can adapt the microwave probe 2 to cables with different diameters by installing the adapter 23; after the cable is connected with the microwave probe 2, the support arm is controlled to adjust the position of the microwave probe 2, the handle 11 is held to adjust the angle of the microwave probe 2, and then the arc-shaped concave surface 21 of the microwave probe 2 corresponds to the limb part of the human body; then, the position of the sliding block 51 is adjusted, the position of the infrared distance sensor 5 is adjusted through the sliding fit of the sliding block 51 and the guide rail 43, the central axis of the infrared distance sensor 5 is perpendicular to the arc-shaped concave surface 21 through the rotating fit of the shaft sleeve 41 and the fixed shaft 3, the central axis of the infrared distance sensor 5 can be horizontally placed with the lower end surface of the microwave probe 2, and the shaft sleeve 41 is fixed at a specified angle through rotating the limiting ring 31; the infrared thermometer 6 is arranged above the infrared distance sensor 5, and the infrared thermometer 6 is synchronously adjusted along with the position adjustment of the infrared distance sensor 5; then, the infrared thermometer 6 is rotated to collect the body surface temperature of the human body within a certain range, so that the detection accuracy of the infrared thermometer 6 can be improved, and the collected temperature data is displayed through the electronic display screen 61; the infrared thermometer 6 detects and records the initial temperature of the treatment part of the human body, the temperature in the treatment time period and the temperature after the treatment is finished.

The infrared distance sensor in the above-described embodiments is to be understood as a sensor device for detecting a distance, and not only refers to an infrared distance sensor, but also to an ultrasonic distance sensor, a laser distance sensor, or a 24GHZ radar sensor.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides a microwave probe temperature detects structure, includes microwave probe (2), the preceding terminal surface of microwave probe (2) is provided with arc concave surface (21), its characterized in that: a rectangular protective frame (1) is arranged on the microwave probe (2);

the left end and the right end of the rectangular protective frame (1) are symmetrically provided with fixing rings (12);

the rectangular protective frame (1) is provided with a fixed shaft (3) through a fixed ring (12);

the other end of the fixed shaft (3) is provided with a limit ring (31);

a shaft sleeve (41) matched with the fixed shaft (3) is hinged between the limiting ring (31) and the fixed ring (12);

the shaft sleeve (41) is provided with a fixed pipe (4) through a connector (42);

and a tubular infrared distance sensor (5) and a tubular infrared thermometer (6) positioned above the infrared distance sensor (5) are arranged above the fixed tube (4).

2. A microwave probe temperature sensing structure according to claim 1, wherein: the fixed pipe (4) is provided with a guide rail (43) which is parallel to the central axis of the fixed pipe (4) through a base (431), and the fixed pipe (4) and the base (431) are of an integrated structure;

the guide rail (43) is provided with a sliding block (51) which is matched with the guide rail.

3. A microwave probe temperature sensing structure according to claim 2, wherein: the sliding block (51) and the infrared distance sensor (5) are fixedly arranged, and the infrared distance sensor (5) is located on the end face of the sliding block (51).

4. A microwave probe temperature detecting structure according to claim 3, characterized in that: a shaft seat (511) is arranged above the sliding block (51), and the central axis of the shaft seat (511) is coplanar with and perpendicular to the central axis of the sliding block (51).

5. A microwave probe temperature detection structure according to claim 4, characterized in that: an articulated shaft of the infrared thermometer (6) is articulated on the shaft seat (511), and an electronic display screen (61) is arranged on the side surface of the end shaft of the infrared thermometer (6).

6. A microwave probe temperature detection structure according to claim 5, characterized in that: the infrared thermometer (6) is positioned on the outer side of the rectangular protective frame (1);

handles (11) are symmetrically arranged at the upper end and the lower end of the rectangular protective frame (1).

7. A microwave probe temperature detecting structure according to claim 6, characterized in that: the rear end of the rectangular protective frame (1) is provided with a protective plate (7) in a sliding manner;

the protective plate (7) is provided with a second through hole (74) positioned in the center and a plurality of first through holes (73) distributed on the upper side and the lower side of the second through hole (74), and the first through holes (73) are uniformly arranged in a stepped manner;

one surface of the rectangular protective frame (1) corresponding to the microwave probe (2) is fixedly connected with a fixing plate (72).

8. A microwave probe temperature detecting structure according to claim 7, characterized in that: the fixing plate (72) and the mounting plate (22) are correspondingly arranged, and the mounting plate (22) is mounted on the rear end face of the microwave probe (2).

9. A microwave probe temperature sensing structure according to claim 8, wherein: an adapter (23) is arranged on one surface of the mounting plate (22) back to the microwave probe (2);

the adapter (23) is matched with the second through hole (74) in size;

the microwave probe (2) and the rectangular protective frame (1) are mutually attached and installed.

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